Ribosomes are the organelles that help read the code for making proteins. They are responsible for translating the mRNA sequence into a specific amino acid sequence, which eventually leads to protein synthesis.
Chloroplasts and central vacuoles are organelles found in plant cells but not in animal cells. Chloroplasts are responsible for photosynthesis to produce energy, while central vacuoles help maintain turgor pressure and store nutrients and waste.
Cells that line the respiratory passages typically have cilia, which are hair-like structures that help to sweep away mucus and debris. These cells also contain organelles such as mitochondria for energy production and endoplasmic reticulum for protein synthesis.
Motor proteins help move organelles throughout the cell. Proteins always give energy, both in the human body system and within microscopic cells.
Yes, the amount of organelles will differ in cells depending on their function. For example, muscle cells will have more mitochondria to provide more energy. Some organelles will just be larger; for example, the smooth ER is responsible for detoxification. There will only be one smooth ER unit in every cell, but cells involved in detox like liver cells will have a larger smooth ER.
mitchocondria and cell membrane
centrioles
chloroplast and the mitochondria
Ribosomes are the organelles that help read the code for making proteins. They are responsible for translating the mRNA sequence into a specific amino acid sequence, which eventually leads to protein synthesis.
Chloroplasts and central vacuoles are organelles found in plant cells but not in animal cells. Chloroplasts are responsible for photosynthesis to produce energy, while central vacuoles help maintain turgor pressure and store nutrients and waste.
Cells that line the respiratory passages typically have cilia, which are hair-like structures that help to sweep away mucus and debris. These cells also contain organelles such as mitochondria for energy production and endoplasmic reticulum for protein synthesis.
Cells that require the manufacture of proteins would have a high number of ribosomes and endoplasmic reticulum. Ribosomes are responsible for protein synthesis, while the endoplasmic reticulum is involved in protein folding and processing. Additionally, Golgi apparatus and mitochondria may also be present to help with further protein processing and energy production for cellular activities involving protein synthesis.
Motor proteins help move organelles throughout the cell. Proteins always give energy, both in the human body system and within microscopic cells.
Motor proteins help move organelles throughout the cell. Proteins always give energy, both in the human body system and within microscopic cells.
Motor proteins help move organelles throughout the cell. Proteins always give energy, both in the human body system and within microscopic cells.
Yes, the amount of organelles will differ in cells depending on their function. For example, muscle cells will have more mitochondria to provide more energy. Some organelles will just be larger; for example, the smooth ER is responsible for detoxification. There will only be one smooth ER unit in every cell, but cells involved in detox like liver cells will have a larger smooth ER.
Organelles are specialized structures within a cell that perform specific functions. They help the cell carry out essential processes such as energy production, protein synthesis, waste disposal, and cell division. Each organelle has a specific role in maintaining the cell's function and overall health.